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Quantum has computing great potentialbut faces a problem with one dimensional. Many quantum processors need to assemble somewhere to make such a car in the true sense. This increases the strength of a processor and the size of a processor, which makes it less practical and more subsequent. Scientists work on a solution that sounds like something out of a science fiction series: To create more powerful cars, close to each other through “Quantum Teleportation” to create more powerful machines.
The road to this type of information is starting to appear. Recently, the Team of the University of Oxford was able to send the first quantum algorithm in two separate quantum processors. Two small nuclear benefits of their unique characters, collected their capabilities and created a computer to solve the problems that none of them could solve independently.
The team headed by the graduate student Dougal, interacted with each other and managed to share the doors of the logic using quantum shutdown. Thanks to this quantum mechanical phenomenon, several particles can share the same situation even in a distance, and therefore can pass the same information. If one changes its condition then the other reflects the other.
Oxford scientists send basic information between the computers almost immediately from the quantum. The information is called “quantum teleportation” when you travel long distances under this principle. This should not be confused with a teleportation conditional idea that covers a hypothetical issue in the space. In practice, the light particles stayed in the same place, but parcels allowed computers to “see each other’s data” and to work parallel.
According to the team, according to the published research document NatureThe quantum teleportation of an algorith was possible with photons and two meters separately. The information of the information was 86 percent. The result of this distributed quantum calculation architecture is enough to be a way to match large-scale technology In the Internet.
In the context of the quantum, quantum teleporting, the demonstrations have been previously emerged, but were limited to the relocation of states between systems. Oxford University Court is different because it uses teleportation to interact between distant nuclei. “This progress allows us to” combine “to the quantum computer fully connected to different quantum processors,” he said.
If the distributed quantum computing technology continues to develop, the period of giant quantum machines can be behind. The problem of size can be solved potentially with more machines working together through quantum teleportation. So far, the main processor can handle 50 gubes, quantum information unit. Some scientists estimate that a car with the ability to process thousands or millions to solve complex problems will be necessary.
The disclosure is strong enough to solve quantum machines, impossible problems. Willow, Google’s quantum chip, recently dissolved the task of a criterion called an instance of a random period in five minutes; Could have had up to 10 years for an ordinary superkomputer to achieve the same result.
This story originated first String in Spanishand has been translated from Spanish.
